Valve assembly for an injection valve and injection valve

What is claimed is: 1. A valve assembly for an injection valve, the valve assembly comprising: a valve body including a central longitudinal axis, the valve body comprising a cavity with a fluid inlet portion and a fluid outlet portion, a valve needle axially movable in the cavity, the valve needle preventing a fluid flow through the fluid outlet portion in a closing position of the valve needle and releasing the fluid flow through the fluid outlet portion in further positions of the valve needle, the valve needle comprising a retainer element extending in a radial direction, and an electro-magnetic actuator unit comprising an armature and a pole piece, the armature axially movable in the cavity and configured to actuate the valve needle via the retainer element, the pole piece fixedly coupled to the valve body and comprising an inner recess, the retainer element at least partially arranged in the inner recess, wherein the pole piece comprises a stop element extending into the inner recess of the pole piece in a radial direction, the stop element has a stop surface facing the fluid outlet portion and the retainer element, the stop surface of the stop element limits the axial movement of the retainer element the stop element has an upper surface facing away from the fluid outlet portion, and a dampening element is fixedly coupled to an axial end of the valve needle facing away from the fluid outlet portion, wherein the dampening element extends radially and has a surface facing the fluid outlet portion and the upper surface of the stop element. 2. The valve assembly of claim 1 , wherein the armature is at a distance from the pole piece when the retainer element is in contact with the stop surface of the stop element. 3. The valve assembly of claim 1 , wherein the stop element and the pole piece are formed as one integral piece. 4. The valve assembly of claim 1 , wherein the stop element and the pole piece are discrete components. 5. The valve assembly of claim 1 , wherein at least one of (a) the stop surface of the stop element and (b) a stop surface of the retainer element facing the stop surface of the stop element comprises a hardened surface layer. 6. The valve assembly of claim 1 , wherein the stop element is distanced by a residual distance from the dampening element when the valve needle is in the closing position and a magnitude of the residual distance between the stop element and the dampening element is selected such that fluid is compressed between the stop element and the dampening element to dissipate kinetic energy when the dampening element approaches the stop element during a closing of the valve assembly. 7. The valve assembly of claim 1 , wherein the valve needle is hollow with an inner space, and the dampening element is shaped as a ring and is concentric with the hollow valve needle, wherein the dampening element is shaped as a ring having an inner diameter, the inner diameter being dimensioned such that a given fluid flow through the inner space of the valve needle is obtained. 8. An injection valve comprising: a valve body including a central longitudinal axis, the valve body comprising a cavity with a fluid inlet portion and a fluid outlet portion, a valve needle axially movable in the cavity, the valve needle preventing a fluid flow through the fluid outlet portion in a closing position of the valve needle and releasing the fluid flow through the fluid outlet portion in further positions of the valve needle, the valve needle comprising a retainer element extending in a radial direction, and an electro-magnetic actuator unit comprising an armature and a pole piece, the armature axially movable in the cavity and configured to actuate the valve needle via the retainer element, the pole piece fixedly coupled to the valve body and comprising an inner recess, the retainer element at least partially arranged in the inner recess, wherein the pole piece comprises a stop element extending into the inner recess of the pole piece in a radial direction, the stop element has a stop surface facing the fluid outlet portion and the retainer element, the stop surface of the stop element limits the axial movement of the retainer element the stop element has an upper surface facing away from the fluid outlet portion, and a dampening element is fixedly coupled to an axial end of the valve needle facing away from the fluid outlet portion, wherein the dampening element extends radially and has a surface facing the fluid outlet portion and the upper surface of the stop element. 9. The injection valve of claim 8 , wherein the armature of the valve assembly is at a distance from the pole piece when the retainer element is in contact with the stop surface of the stop element. 10. The injection valve of claim 8 , wherein the stop element and the pole piece of the valve assembly are formed as one integral piece. 11. The injection valve of claim 8 , wherein the stop element and the pole piece of the valve assembly are discrete components. 12. The injection valve of claim 8 , wherein at least one of (a) the stop surface of the stop element and (b) a stop surface of the retainer element facing the stop surface of the stop element comprises a hardened surface layer. 13. The injection valve of claim 8 , wherein the stop element is distanced by a residual distance from the dampening element when the valve needle is in the closing position and a magnitude of the residual distance between the stop element and the dampening element is selected such that fluid is compressed between the stop element and the dampening element to dissipate kinetic energy when the dampening element approaches the stop element during a closing of the valve assembly. 14. The injection valve of claim 8 , wherein the valve needle is hollow with an inner space, and the dampening element is shaped as a ring and is concentric with the hollow valve needle, wherein the dampening element is shaped as a ring having an inner diameter, the inner diameter being dimensioned such that a given fluid flow through the inner space of the valve needle is obtained.